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Feedback inhibition of cAMP effector signaling by a chaperone-assisted ubiquitin system

Author

Listed:
  • Laura Rinaldi

    (University Federico II)

  • Rossella Delle Donne

    (University Federico II)

  • Bruno Catalanotti

    (University Federico II)

  • Omar Torres-Quesada

    (University of Innsbruck)

  • Florian Enzler

    (University of Innsbruck)

  • Federica Moraca

    (University Federico II)

  • Robert Nisticò

    (University Tor Vergata)

  • Francesco Chiuso

    (University Federico II)

  • Sonia Piccinin

    (University Tor Vergata)

  • Verena Bachmann

    (University of Innsbruck)

  • Herbert H Lindner

    (Biocenter Medical University of Innsbruck)

  • Corrado Garbi

    (University Federico II)

  • Antonella Scorziello

    (University Federico II)

  • Nicola Antonino Russo

    (I.R.C.S., BIOGEM, Ariano Irpino)

  • Matthis Synofzik

    (University of Tübingen and German Center for Neurodegenerative Diseases (DZNE))

  • Ulrich Stelzl

    (University of Graz and BioTechMed-Graz)

  • Lucio Annunziato

    (IRCCS SDN)

  • Eduard Stefan

    (University of Innsbruck)

  • Antonio Feliciello

    (University Federico II)

Abstract

Activation of G-protein coupled receptors elevates cAMP levels promoting dissociation of protein kinase A (PKA) holoenzymes and release of catalytic subunits (PKAc). This results in PKAc-mediated phosphorylation of compartmentalized substrates that control central aspects of cell physiology. The mechanism of PKAc activation and signaling have been largely characterized. However, the modes of PKAc inactivation by regulated proteolysis were unknown. Here, we identify a regulatory mechanism that precisely tunes PKAc stability and downstream signaling. Following agonist stimulation, the recruitment of the chaperone-bound E3 ligase CHIP promotes ubiquitylation and proteolysis of PKAc, thus attenuating cAMP signaling. Genetic inactivation of CHIP or pharmacological inhibition of HSP70 enhances PKAc signaling and sustains hippocampal long-term potentiation. Interestingly, primary fibroblasts from autosomal recessive spinocerebellar ataxia 16 (SCAR16) patients carrying germline inactivating mutations of CHIP show a dramatic dysregulation of PKA signaling. This suggests the existence of a negative feedback mechanism for restricting hormonally controlled PKA activities.

Suggested Citation

  • Laura Rinaldi & Rossella Delle Donne & Bruno Catalanotti & Omar Torres-Quesada & Florian Enzler & Federica Moraca & Robert Nisticò & Francesco Chiuso & Sonia Piccinin & Verena Bachmann & Herbert H Lin, 2019. "Feedback inhibition of cAMP effector signaling by a chaperone-assisted ubiquitin system," Nature Communications, Nature, vol. 10(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-10037-y
    DOI: 10.1038/s41467-019-10037-y
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